MindTap Engineering for Garber/Hoel's Traffic and Highway Engineering, 5th Edition, [Instant Access], 1 term (6 months)
MindTap Engineering for Garber/Hoel's Traffic and Highway Engineering, 5th Edition, [Instant Access], 1 term (6 months)
5th Edition
ISBN: 9781305577398
Author: Nicholas J. Garber; Lester A. Hoel
Publisher: Cengage Learning US
Question
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Chapter 2, Problem 4P
To determine

(a)

The expression for travel demand on the bridge related to toll increase and current volume.

Expert Solution
Check Mark

Answer to Problem 4P

The expression for travel demand on the bridge related to toll increase and current volume is V=6000x50(500).

Explanation of Solution

Given:

A toll bridge carries 6000veh/day.

The current toll is $3.50/vehicle.

For each increase in toll of 50 cents, the traffic volume will decrease by 500veh/day.

Concept used:

Write the relation between traffic volume and cost.

  V=V(xx)ΔV ....... (I)

Here, V is the vehicles carried by the bridge, x is the cost increase in cents, x is the increase in cost of toll and ΔV is the increase or decrease in the traffic volume.

Calculations:

Substitute 6000 for V, 50 for x and 500 for ΔV in equation (I).

  V=6000x50(500)

Conclusion:

Therefore, the expression for travel demand on the bridge related to toll increase and current volume is V=6000x50(500).

To determine

(b)

The toll charge to maximize revenue.

Expert Solution
Check Mark

Answer to Problem 4P

The toll charge to maximize the revenue is $4.75.

Explanation of Solution

Write the expression to calculate the total toll charge.

  T=Originalcost+Costincrease ....... (II)

Here, T is the toll.

Write the expression to calculate the revenue generated.

  R=V×T ....... (III)

Here, R is the revenue.

Calculations:

Calculate the total toll charge.

Substitute 350 for Original cost and x for Cost increase in equation (II).

  T=350+x ....... (IV)

Calculate volume of traffic expected for a 50 cent increase.

Substitute (350+x) for T and [6000x50(500)] for V in equation (III).

  R=(6000x 50( 500))×(350+x)=(600010x)(350+x)=2,100,000+6,000x3,500x10x2=2,100,000+2,500x10x2

For maximum value, calculate the first derivative of above equation and equate to zero.

  ddx(2,100,000+2,500x10x2)=0250020x=020x=2500x=125

Substitute 125 for x in equation (IV).

  T=350+125=475cents( 1$ 100cents)=$4.75

Conclusion:

Therefore, the toll charge to maximize revenue is $4.75.

To determine

(c)

The traffic volume after toll increase.

Expert Solution
Check Mark

Answer to Problem 4P

The traffic volume after toll increase is 4750veh/day.

Explanation of Solution

Calculations:

Calculate the traffic volume after toll increase.

Consider the expression for travel demand on the bridge related to toll increase and current volume.

  V=6000x50(500).

Substitute 125 for x in above equation.

  V=6,00012550(500)=6,0002.5(500)=6,0001,250=4750

Conclusion:

Therefore, the traffic volume after toll increase is 4750veh/day.

To determine

(d)

The total revenue increase with new toll.

Expert Solution
Check Mark

Answer to Problem 4P

The total revenue increase with new toll is $22,562.5.

Explanation of Solution

Calculations:

Substitute 4750veh/day for V and $4.75 for T in equation (III).

  R=4750×$4.75=$22,562.5

Conclusion:

Therefore, the total revenue increase with new toll is $22,562.5.

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